标题: 高效能高分子太阳能电池及光二极体
High-Performance Polymer Solar Cells and Photodetectors
作者: 陈方中
Chen Fang-Chung
国立交通大学光电工程学系(所)
关键字: 高分子;型态学;太阳能电池;退火;微波;polymer;morphology;solar cells;annealing;microwave
公开日期: 2008
摘要: 很多文献报导指出退火制程对于高分子太阳能电池有重大的影响。“高效能高分子
太阳能电池及光二极体”研究计划将系统性地研究包含热退火及溶剂退火等方式对元
件特性的影响机制。以不同退火方式制备的有机薄膜将以紫外-可见光及红外线光谱检
视,薄膜型态也将以原子力显微镜、穿透式电子显微镜、扫瞄式电子显微镜、X 光绕
射及雷射扫瞄共轭焦显微镜等方式研究,有了基础的薄膜型态与元件知识后,溶剂退
火也将更进一步以增加蒸气压及降低退火温度来改善。此外,本计划也将发展快速及
有效率的微波退火,最后,并检视不同退火方式对有机光二极体的影响。预计成功执
行本计划后高分子太阳能电池及光二极体的效能将被大幅改善。
Many reports have indicated that the annealing process plays an important role on the
device efficiency of polymer solar cells. The “high-performance polymer solar cells and
photodetectors” research project will systematically investigate the effects of different
annealing methods, including thermal and “solvent” annealing, on the device performance.
The prepared organic thin films by different methods will be examined by optical
spectroscopes, such as UV-vis and near-IR spectroscopes; the film morphology will be also
studied by atomic force microscopy, transmission electron microscopy, scanning electron
microscopy, X-ray diffraction and laser scanning confocal microscopy. With solid
understanding of the annealing process, the solvent annealing will be improved by increasing
the vapor pressure, and lowering the annealing temperature. Further, one fast and efficient
annealing method, microwave heating, will be developed. Finally, the annealing effect on the
performance of polymer photodiodes will be also investigated. The performance of polymer
solar cells and photodetectors is anticipated to be improved significantly after the success of
this project.
官方说明文件#: NSC96-2628-E009-022-MY2
URI: http://hdl.handle.net/11536/102655
https://www.grb.gov.tw/search/planDetail?id=1622743&docId=277761
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